Vibration of Piezoelectric Crystal Plates

Name: Vibration of Piezoelectric Crystal Plates
Brand: World Scientific Publishing Company Incorporated
SKU: 1-99-537-001086
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"Vibration of Piezoelectric Crystal Plates" by Jiashi Yang is a book focused on Devices & Sensors. Best for readers interested in this subject.

Ch. 1. Theory of piezoelectricity. 1.1. Basic equations. 1.2. Free vibration eigenvalue problem. 1.3. Inertial effect of a mass layer: perturbation integral. 1.4. Effect of mass layer stiffness: perturbation integral. 1.5. Frequency perturbation due to contact with a fluid. 1.6. Quartz and langasite. 1.7. Lithium niobate and lithium tantalate. 1.8. Polarized ceramics and crystals in class 6mm -- ch. 2. Thickness modes in plates: elastic analysis. 2.1. Equations of anisotropic elasticity. 2.2. Thickness modes in a quartz plate. 2.3. Inertial effect of a mass layer: Sauerbrey equation. 2.4. Inertial effect of a mass layer: perturbation. 2.5. Inertial effect of a mass layer: differential equation. 2.6. Plate with asymmetric mass layers. 2.7. Plate in contact with a fluid: differential equation. 2.8. Plate in contact with a fluid: perturbation. 2.9. Plate with particles. 2.10. Plate with an array of rods in extension. 2.11. Plate with an array of beams in bending. 2.12. Plate with beams: effect of couple stress. 2.13. Plate with an inhomogeneous layer of finite thickness -- ch. 3. Thickness modes in plates: piezoelectric analysis. 3.1. Unelectroded plate. 3.2. Thickness field excitation. 3.3. Lateral field excitation. 3.4. Plate with separated electrodes. 3.5. Effect of electrode inertia. 3.6. Imperfectly bonded electrodes. 3.7. Effect of electrode shear stiffness. 3.8. Plate in contact with a fluid under a separated electrode. 3.9. Plate in contact with a fluid: lateral field excitation. 3.10. Plate with surface load described by acoustic impedance. 3.11. Transient thickness-shear vibration

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Best For: Researchers and engineers working with piezoelectric materials and devices

Focus: Theoretical and analytical study of vibration in piezoelectric crystal plates

Covers: Basic equations of piezoelectricity, vibration eigenvalue problems, effects of mass layers and fluids, and specific materials like quartz, langasite, lithium niobate, and lithium tantalate

Why It Matters: Understanding vibration behavior in piezoelectric crystals is essential for designing and optimizing sensors, actuators, and other devices in technology and engineering fields

"Vibration of Piezoelectric Crystal Plates" by Jiashi Yang is a book focused on Devices & Sensors. Best for readers interested in this subject.

Topic: Devices & Sensors

Author: Jiashi Yang

Who this is for:

Students
Educators
Interested readers

Why this book matters: It offers useful subject matter and structured coverage for readers looking to explore the topic in more depth.

Ch. 1. Theory of piezoelectricity. 1.1. Basic equations. 1.2. Free vibration eigenvalue problem. 1.3. Inertial effect of a mass layer: perturbation integral. 1.4. Effect of mass layer stiffness: perturbation integral. 1.5. Frequency perturbation due to contact with a fluid. 1.6. Quartz and langasite. 1.7. Lithium niobate and lithium tantalate. 1.8. Polarized ceramics and crystals in class 6mm -- ch. 2. Thickness modes in plates: elastic analysis. 2.1. Equations of anisotropic elasticity. 2.2. Thickness modes in a quartz plate. 2.3. Inertial effect of a mass layer: Sauerbrey equation. 2.4. Inertial effect of a mass layer: perturbation. 2.5. Inertial effect of a mass layer: differential equation. 2.6. Plate with asymmetric mass layers. 2.7. Plate in contact with a fluid: differential equation. 2.8. Plate in contact with a fluid: perturbation. 2.9. Plate with particles. 2.10. Plate with an array of rods in extension. 2.11. Plate with an array of beams in bending. 2.12. Plate with beams: effect of couple stress. 2.13. Plate with an inhomogeneous layer of finite thickness -- ch. 3. Thickness modes in plates: piezoelectric analysis. 3.1. Unelectroded plate. 3.2. Thickness field excitation. 3.3. Lateral field excitation. 3.4. Plate with separated electrodes. 3.5. Effect of electrode inertia. 3.6. Imperfectly bonded electrodes. 3.7. Effect of electrode shear stiffness. 3.8. Plate in contact with a fluid under a separated electrode. 3.9. Plate in contact with a fluid: lateral field excitation. 3.10. Plate with surface load described by acoustic impedance. 3.11. Transient thickness-shear vibration

Author	Jiashi Yang
Publisher	World Scientific Publishing Company Incorporated
Published	2013
ISBN-13	9789814449847
Binding	Hardcover
Pages	419
Language	English
Subjects	Technology & Engineering
Topic	Devices & Sensors